Shutter curtain mechanism, particularly for aerial cameras



NW. I944. A. H. GOREY ET AL 2,352,315

SHUTTER CURTAIN'MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1, 1942 ll Sheets-Sheet 1 Nov. 14, 1944,

A. H GQREY ET'AL SHUTTER CURTAIN MECHANISM PAI ITICULARLY FOR AERIAL CAMERAS ll Sheets-Sheet 2 Original Filed April 1, 1942 mama 1944 A. H. GOREY ETAL 2,362,815

SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1, 1942 11 Sheets-Sheet 3 Nov. 14, 1944. A. H. GOREY ETAL SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1, 1942 ll Sheets-Sheet 4 rE2222is;22 22% ild!!! v INVENTORG zflrcfiwIiaomiy BY I/ouwfll vade Edksongiivmzziw ATTORNEYS.

A. H. GOREY ETAL 2,362,815

SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Nqv. 14, 1944.

Original Filed April 1, 1942 11 Sheets-Sheet 5 INVENTORS.

* RSQ 915mg W w M M Nov. 14, 1944. A. H. GOREY ETAL 2,362,815

SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1, 1942 ll Sheets-Sheet 6 INVENTORLS. flrchwH 60?? BY .LouwBZWuZe F1160 n8.mmizna ATTQRNEYG A. H. GOREY ErAL SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Nov. 14, 1944.

11 Sheets-Sheet 8 Original Filed April 1, 1942 INVENTORS. fli'wZzzcHGo I/ou E'dson 6, Ear-Vi.

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ATTORNEYG Nov. 14, 1944. A. H. GOREY ET AL 2,362,815 SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS 7 ll Sheets-Sheet 9 Original' Filed April 1, 1942 H&o? LouwllNada Nov. '14, 1944. A. H. GOREY ETAL SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1,

1942 ll Sheets-Sheet 10 Wilde}.

Zane,

Nov. 14, 1944. A. H. GOREY ET AL 2,362,815

SHUTTER CURTAIN MECHANISM PARTICULARLY FOR AERIAL CAMERAS Original Filed April 1, 1942 11 Sheets-Sheet 11 a m T N i E v m (H rah/72811 (20 LouisZZNZzdpi Edison 6.11 wwhne Patented Nov. 14, 1944 MECHANISM, PARTICU- SHUTTER CURTAIN LARLY FOR Archie H. Gorey,

AERIAL CAMERAS Louis D. Nadel, and Edson S.

Hineline, Rochester, N. Y., assigmors to The Uriginal application Corporation, a corporation of Delaware April 1, 1942, Serial No.

Rochester, N. Y.,

437,246. Divided and this applioatlon April Ill.

1943, Serial No.

81F Claims.

This application is a division of our co--pencli:og application Ser. No. {137,240, filed April 1, 1942.

This invention relates to shutter curtain mechanism particularly for aerial cameras.

In order that the principle of the invention may he readily understood, we have disclosed a single embodiment thereof in the accompanying drawlogs, wherein Fig. is a right side elevation of the camera showing the shutter rewind handle in position ready for melting exposure, the position of the shutter release trigger being also shown and the torwarol position of the shutter operating handle indicates dotted. lines, which is the posh tlon oi the tter operating handle when it has been moved all the way forward;

Fig. 2 is a section token through the camera, showing the mounting of the film spools, the shutter curtain rolls, the pressure pad, and the cal p-ing gates, the latter being in a closed condition;

ig. 3 is a partial horizontal section looking toward the lens taken on the line 33 of Fig. 2, showing the mounting of the capping gates and the mechanism for operating them;

Fig. 4 is a detail of the shutter curtain, showlllg its several apertures;

ll'ig. 5 is a horizontal section through the camera body taken on the line 5-5 of Fig. 6, showing the construction of the curtain rolls;

Fig. 6 is a right side elevation of the camera, ll l'th the mechanism cover removed, showing the mechanism with the shutter in rewoumi condition ready for making an exposure;

Fig. 7 is a section through the mechanism housing, taken on the line l-'l of Fig. 6;

Fig. 8 is a partial horizontal section taken through Fig. 6 on the line 8-8 thereof with some of the parts removed;

Fig. 9 isa. partial vertical section taken through Fig. 13 on the line 9 -9 thereof, showing shutter setting mechanism when in the set or ready con- -dition;

Fig. 10 is a view similar-to 9, but with the 1 setting lllGVeCl to the right to pere selection of another curtain apertures 1g. 11 is a detail 0; the curtain latch member; l2 is a left hand elevation of ll- 13 is a View similar to Fig. re camera release ti iggei' partially moved in a c'tio'n to release the shutter, the capping o partially open, but the curtain not re ed; lg. .14 is a fragmentary view similar to :F'llg. it. out having'some oi the porters-moved to show 1 a o, o with lug one of the interlocks;

more clearly the shutter latching means and one of the interlocks;

Fig. 15 is a fragmentary detail partially in section, taken on the line illof Fig. 14, show- Fig. 16 is a View similar to Fig. 13, but with the shutter release member moved a sufficlent distance to open fully the capping gates, disengage the winding gear, and release the shutter;

Fig. 17 is a detail partially in section of Fig. 16 on the line ll--ll thereof Fig. 18 is a fragmentary view similar to Fig. 16, but having some of the parts removed to show more clearly the operation of one of the rewind interlocks when the mechanism is in the conditlon shown in Fig. 16;

Fig. 19 is a view similar to Fig. 15, but shows the interlock as it appears when the mechanism is in the condition shown in Fig. 16;

Fig. 20 is a view similar to Fig. 16 but representing the shutter release trigger as having re-' turned to the starting position, allowing the capping gates to be closed and allowing the Winding gear to be engaged prior to rewinding the shutter for another exposure; I

Fig. 21 is a fragmentary detail similar to Fig. 20, on an enlarged scale, and showing the position of the shutter release lever interlock when the mechanism is in'the condition shown in Fig. 20;

Fig. 22 is a partial horizontal section taken through Fig. 21 to show more clearly the construction of the trigger interlock mechanism;

Fig. 23 is a detail of the shutter release member and capping gate driving gear;

Fig. 24 is a detail, partially in section, taken through Fig. 23 on the line -25 thereof;

Fig. 25 is a horizontal section taken through Fig. 20 on the'line 25-25 thereof, and showing the capping gate operating gears;

Fig. 26 is a fragmentary view, hut-with some of the parts removed to show more clearly the construction of the rewind interlock;

Fig. .27 is a right hat tel elevati with a portion of the COlle boot operating handle removed, and s owl posure eounterdial. the shutter opening, the shutter, rewind anal gears being shown dotted lines,

to camera and the the position of the operating handle when "the sh moi ism com cliti-on for operating oelfog indicat r in clotted lines;

his. 23 is cletall w.

rewind is a detail of the I ailsl were gees".

S-bjects of this invention are: to provide a camera, and particularly an aerial camera hava shutter curtain with shutter mechanism having means compelling the complete rewinding of the shutter before the exposure can be made, a second operation of the exposure release lever being impossible until the shutter curtain has been rewound; to provide a camera, and particularly an aerial camera, with mechanism for rapidly rewihding shutter and with inter locking means to secure the proper positioning of the shutter curtain before an exposure can be made; to provide a wide range of shutter speeds. with means for readily changing such speeds; and to provide a simple exposure counter that is easily manipulated and accurate in performance,

Referring first to Fig. 1, there is disclosed the outside of the camera structure wherein the camera body or housing is indicated at 20, and is provided with a suitable mechanism housing. There a film chamber provided with a film chamber cover held to the camera body 20 by knurled head screws 22, 22. There is a lens cone member 23 attached to the camera body 20 by screws 24, The lens cone member 29 is also provided with the usual lens shade member 30 to which is attached a diaphragm scale 9I by means of screws 32. Also attached to said lens cone member 29 is a direct vision view finder 99 preferably of the usual direct vision type, and it is held to the lens cone member 23 by screws 94, 94.

Frotruding from the left-hand side of the camera body 20 is a shutter speed control knob 91 and a handle boss member 98 to which latter is attached a shutter operating handle 99. Extending from said protruding boss member 98 is a shutter release lever or trigger 40. The means for attaching the shutter operating handle 99 will be referred .to in full detail at a later part of this description.

The shutter used in the herein disclosed camera is of the multiple aperture type subsequently described herein, at which point it will be made fully apparent that when the film is rewound for making a second exposure or when changing the aperture, it is necessary that all light passing through the lens be cut on from the sensitized film. The structure for accomplishing this result is best shown in Figs. 2 and 3. Therein the capping gates, indicated at 99, 91, are shown as pivoted on shafts 98, 99, respectively, by hinged members I00, IN, and the said capping gates are caused to be closed by springs I02, I09, Said capping gates 96, 91 are desirably made up of pan-shaped members each having a turned-up edge at three sides and an overlapping formation where they meet, as most clearly indicated at I04 in Fig. 2. When the said gates 96, 91 are closed, all light is excluded from the sensitized film material.

Supported between the camera body or housing 20 and the lens cone member 29 is the capping gate. support member or aperture plate I05, as clearly shown in Figs. 2 and 3. The said plate 105 has a downwardly extending box-like formation on all four sides, as indicated at I06.

This forms a light-lock between the lens cone member 23 and the aperture plate or support member I05, and formed on the upper side of such capping gate plate is a second box-like formation or flange extending upwardly on all four sides and engaging the inner walls of the camera body or housing 20, as indicated at I01. Such structure forms a light-lock between the camera body or housing 20 and the capping gate support member or plate I05.

On two sides of the box-like flange or formation 06 are formed bosses I08, I08 for supporting said shafts 98, 99. In the capping gate support member or plate I05 is formed an opening having a downwardly extending lip indicated at W9, and it is over such lip formation that the capping gates 96, 91 are closed to exclude light from the sensitized film material when the said capping gates are in the position shown in Fig. 2.

Fitted to said shafts 98, 99 and securely keyed thereto are the hinged members I00, IOI previously referred to, and said capping gates 98, 91 are attached to the said hing members by screws 26a, 96a and 91a, 91a, respectively, shown in Fig. 3. Said hinge members I00 and IOI are also provided with crank formations IIO, H0, shown in dotted lines in Figs. 3 and 6. Fitted to the said crank members H0, H0 by means of shoulder rivets are link-like connecting members III, III attached to capping gate actuating disk' I I2.

When the shutter is released by means of the shutter release lever or trigger 40, the said actuating disk H2 is caused to rotate in a manner subsequently described. The capping gates 98, 91 are caused to rotate on shafts 98, 99, respectively, through said hinge members I00, I0 I, causing said capping gates 96, 91 to be opened. The said capping gates are shown in fully opened condition in Fig. 16. When pressure upon the shutter release lever or trigger 40 is relieved, the capping gates 96, 91 are caused to close by means of the springs I02, I09 respectively.

Riding on the hing members I00, IOI, when the capping gates 90, 91 are in closed position, are pressure pad lifting members H3, H3 provided with reduced diameters at either end and fitted into holes II4, I I4 of the capping gate support member or plate I05, and fitted into holes H5, H5 in the camera body or housing 20, and also fitted into shallow holes or indentations I I6, 1 I5 of the pressure pad 84.

Referring to Figs. 4 and 5, showing the construction and position of the shutter curtain rollers, the shutter curtain and the idler rollers, it will be noted that the shutter curtain rewind roller is represented at II1, the shutter rewind roller shaft at H8, and the shutter curtain at II9, as most clearly shown in Fig. 4, where it is represented as provided with slots or apertures I20, I2I, I22. The curtain idler is shown at I29 in Fig. 2 and a second curtain idler on the opposite side of the exposure aperture is shown at I24. The curtain tension roller is shown at I25, the curtain tension roller shaft at I29, and the curtain tension roller spring at I21.

Referring to Fig. 5 the shutter compartment of the camera body or housing 20 is made up of four walls, namely, the right-hand wall I28, the back wall I29, the left-hand wall I and the front wall I9 I. The shutter curtain rewind roller H1 is provided at either end with bushings I92, I99 pinned to the shutter curtain rewind roller and shaft by means of pins I94, I95, respectively. The left-hand end of the shutter curtain shaft II8 (viewing Fig. 5) is fitted into a. bearing I96 having a dust cap I98a and held to the camera wall I90 by screws I91, I91. Onto the right-hand end of the shaft H8 is keyed a curtain roller rewind gear I98, securely held thereto by a locking screw I39. Into the wall I28 is fitted a bushing I40 providing a bearing for the hub of the rewind gear I98, and thus providing a bearing for the curtain roller II1, which is spaced from th said wall I 28 by means of a washer HI and from the wall I30 by a washer I42.

The said second idler roller I24 is fitted to turn freely on pin I43 attached tothe said wall I30 in any suitable manner. The opposite end of said second curtain idler I24 is supported on a pivot'screw I45 threaded into the wall I28. The

curtain tension roller I25 is provided with a bushing I46 on its left-hand end, securely held thereto. so as to turn therewith, but it has a central hole or hearing through which the shaft I26 is free to rotate. The opposite end of the tension roller I25 is provided with a bushing I41 securely held to the tension roller I25 and having a central hole or bearing so as to turn freely on the shaft ,I26. The left-hand end of said shaft I26 is supported in a bearing member I48 having a dust cap I48a held to the camera wall I30 by screws I49, I49. The opposite end of the tension roller shaft I26 is supported in a bearing I50 fitted into the wall I28. The right-hand end of said shaft I26 is provided with flats, shown in dotted lines in Fig. 6, to which is fitted a notch plate l5I held to the said shaft I26 by screws I52. The spring I21 is anchored to the said shaft I26 on its right-hand end (viewing Fig. 5) by passing through a hole' I53 in said shaft I26. and the opposite end of said spring I21 is anchored in a slot in bushing I46, as clearly shown in Fig. 5.

In order to increase the tension of spring 126, the screws I54. I54 are removed and the notches I55 of plate I5I are engaged by a suitable tool and turned in a contraclockwise direction, viewing Fig. 6, then said screws are replaced, properly aligning notches I55, so that the screw heads will engage said notches. This supplies very sim ple means for applying predetermined tension upon the curtain tension roller, since the tool for adjusting the tension can be made with a clutch that will slip when a given or predetermined tension has been reached.

There will next be described the mechanism that controls the rewinding of the shutter curtain and moves a new area of the sensitized film material before the exposure opening. and also controls the releasing of the shutter for making an exposure, and-for this purpose we will refer to Figs. 6 and 13 particularly.

Referring first'and more particularly to Figs. 6, 7 and 8; the shutter used in the herein disclosed camera is'of the so-called multiple-aperture type, by which is meant a curtain having a separate aperture for each exposure speed. When using such curtain. it is desirable to select some one of the several apertures, and after that aperture is selected, the same aperture will be used for all subsequent exposures until a different aperture is selected.

Referring to Figs. 6, 7, 9, 10, 11 and 12, the curtain roller rewind gear I38 meshes with shutter rewind gear I56 which is provided with a cylindrical hub I51 constituting also a pinion, and is fitted over a second cylindrical hub orsleeve I58 that extends from and has integral therewith a shutter release disk or member I59. Said hub or sleeve I58 is free to turn on the stud I60 that is provided with a cylindrical hub I6I and a spacing washer I62, both held to the inner wall I28 of the mechanism-housing by means of screws I63, I63. Said shutter release disk I59 is provided with two index holes I64, I64, and the shutter rewind gear I56 is provided with two pins I65, I for engaging the index holes I64. I64. In Fig. 9, the said pins I65, I65 are shown thereto by means of flats I 81 (Fig.

groove in aspring retaining by a shoulder stud I18 as engaged with the index holes I64, I64 and in Fig. 10 the said index pins are shown disengaged from the said index holes. The purpose of this structure is to provide means for dis connecting the shutter rewind gear shutter release disk I59, when selecting a new curtain aperture. Said shutter release disk I58 is provided with a notch I 66, shown in Fig. 12 in full lines and in Fig. 6 in dotted lines. Said notch I66 serves as means to hold the shutter curtain in a set condition when the curtain is fully wound, and it is engaged by a detent I81 of a shutter release lever I 68 which is pivoted on a shoulder screw I68 threaded into a hub or support member I 10 held to the mechanism-housing wall I28 by screws HI, "I. lease lever I 68 is caused to be The shutter re turned in a contraclockwise direction by means of a spring I12,

one end of which engages a hole I13 of the lever I68, the opposite-end thereof engaging a circular screw I 14. Inasmuch as the curtain maintains a tension on the curtain roller II1, tending to cause it to turn in a contraclockwise direction, the shutter rewind gear I56 would be caused to turn in a clockwise direction, but is prevented from doing so inasmuch as the shutter release disk I59 is held from turning by the detent I61 of the lever I68 engag- 11;: the notch I66 of said shutter release disk I In Fig. 6, the shutter is shown in a fully wound condition ready for making an exposure, the rewinding cycle having Just been completed. In order to rewind the shutter and move a new area of sensitized film material to the exposure opening, a train of gears and a film feed clutch are provided. We will now trace such gear train from the shutter rewind gear I56 to the main operating'gear and in so doing will refer to the same figures and also to Figs. 13 and 14.

Pivoted on a stud I15 is a rocker bar I16, shown in Fig. 7. On the right-hand end of such rocker bar I16 is carried an idler pinion or gear I11 held to and carried by said rocker arm I16 riveted to the said rocker bar I 16. The opposite end of the shoulder stud I18 is provided with an enlarged diameter I19 for retaining the gear I11, and a reduced diam. eter I which engages a slot I8I of the guide. plate I82 (Fig. 6). The said guide plate I82 is held in the mechanism-housing by screws I83, I83. There is a further reduced diameter I84 on the shoulder stud I18, provided with a groove for attaching a spring I85.

Also carried on the said rocker arm I16, as shown in Fig. 7, etc., is an idler gear I86, by means of a shoulder stud I81 which has a suit able shoulder or flange for retaining said idler gear I86, and a reduced diameter extension I88, the purpose of the latter being to form an interlock that will be described particularly in that part of the specification addressed to the interlocks in detail.

As shown in Figs. 6, 7, 13, 16 and 20, mounted on the stud I15 is an idler gear I89 which meshes with a film i'eed gear I90. The said idler gear I86 and the rocker arm I16 are held to the stud I15 by means of a retaining washer I9I and a retaining screw I92. The stud I 15 is provided with an enlarged diameter base, and is held to the mechanism-housing by means of screws I94,

I84. The film feed gear I90 (Fig. 20) is free to rotate on a hub I of the ratchet wheel I96 fitted to the take-up spool shaft 16 and keyed 7). Keyed I56 from the to said film feed gear I90, as shown in Figs. 6 and '7, is a spring clutch member I90 in frictional contact wtih ratchet wheel I96. The said film feed. gear I90 and ratchet wheel I96 are held in position on the shaft 16 by means of a washer I99 and a locking screw I99a.

The ratchet wheel I96 is held from rotating in a contraclockwise direction when a predetermined amount of film has been fed as governed by the film measuring roll II, by a rocker arm 200, shown in Fig. 6, etc, as having a pawl or dog 20I for engaging teethin said ratchet wheel I96. Said rocker arm 200 is supported on a shoulder screw 202 threaded into a boss on the mechanism wall I28, and it is caused to turn in a clockwise direction under the influence of a spring 203, which has a hooked formation engaging the lower end of rocker arm 200, the other end being anchored on ascrew 204 having a suitable groove to hold said spring in position.

As shown in Fig. 6, the film measuring roller 1I is provided with a gear 205 which meshes with an index gear 206 attached to the mechanism-housing by a screw 206a, and an index plate 201 having a notch 208 is attached to said index gear 206 by screws 209. The lower end of the rocker arm 200 is provided with a reverse L- shaped formation, indicated at 2I0, for engaging the notch 208 of the index plate 201 each time the notch 208 reaches the formation 2I0 as the index plate 201 is revolved by the gear 206.

,When the pawl or dog 20I engages the teeth of the ratchet wheel I96, the film take-up spool is prevented from turning, but the film feed gear I90 can continue to revolve because of the friction clutch previously described. When the pawl or dog MI is withdrawn from the teeth of the ratchet wheel I96, the take-up spool is driven by said film feed gear I90 through the clutch member I98, until the bent-over end 2I0 drops into the notch 208 of the index plate 201.

The gear ratio between gears 205 and 206 is such that when sufficient film is measured off by the film measuring roller II to bring a new suply of film before the exposure opening, the index plate 201 will have made one complete revolution. The dog or pawl 20I is withdrawn from the ratchet teeth of the ratchet wheel I96 by the action of the shutter running down, as will be later fully explained. I

As best shown in Fig. 6, also meshing with the film feed gear I90 is a main driving gear 2 that is carried on a suitable stud whereon is a ratchet wheel 2I5 which is driven by the main driving gear 2II by means of keys 2I6, 2l6 engaging keyways 2I1, 2I1 of the main driving gear 2I I. Attached to the latter and operating therewith is a pinion 2I8, shown in Fig. 6.

The ratchet wheel 2I5, the main driving gear 2H and the pinion 2I8 are by means of a large head screw 2I9, and the said main driving gear 2 II is prevented from turning in a contraclockwise direction by means of a pawl 220 engaging teeth in the ratchet wheel 2I5, the said pawl 220 being mounted on a stud itself mounted on the back wall of the mechanism-housing, and being held in place by a large head screw MI. The pawl 220 is caused to be rotated in a clockwise direction by means of a spring 222, one end of which has a hooked formation engaging the upper end of the said pawl 220. The opposite end of the spring 222 is held in place by a screw 223 having a suitable groove therefor.

It has previously been explained howiilm is held onto said stud wound on the take-up spool 62 by rotation of the film feed gear I through the clutch member I96, ratchet wheel I96 and the shaft 16. It has also been explained that for each exposure the index gear 206 makes one complete revolution and then stops, thereby preventing further winding of the film until a second exposure is made.

Again referring to Figs. 6 and '7 and also to Fig. 13, wherein the structure is shown in a fully film has been wound on the take-up spool 62 and is prevented from being further wound by pawl 20I engaging ratchet wheel I96, this all being accomplished by the rotation of the main driving gear 2 turning through one revolution, thereby driving the shutter rewind gear I56 in the manner previously described. The main driving gear 2II may have a crank attached in place of the pinion 2I9 and in order to simplify the description of the operation, it will be assumed that means is provided to drive the main driving gear 2II through a cycle of one revolution for each exposure, and we will now describe the reciprocating and driving means for the reciprocating rewinding and the interlocking means provided therefor, after having fully explained the shutter operation and the film winding operation in its simpler form.

As shown in Fig. 6, the shutter rewind gear I56 is prevented from turning by the pawl or detent I61 of the shutter release lever I68, and because the gear I11 is in mesh with'gear I56, and inasmuch as the gear train can move only in one direction, due to ratchet wheel 2I5 andpawl 220, the gear I11 being held in mesh with the said shutter rewind gear I56 by means of spring I05 attached to the stud I84 and a screw 233 threaded into the mechanism housing. To look securely the gear I11 in mesh with the shutter rewind gear I56, there is provided a rocker arm lock lever 234 pivoted on a shoulder screw 235 and caused to turn in a clockwise direction by means of a spring 236 hooked to the lever 234. By a hole 231. the opposite end of said spring 236 is connected to a stud 238 threaded into the mechanism-housing. The upper portion of the rocker arm member 234 is of a, modified C formation having a hook 239 which engages the stud I88 of the rocker arm I16, thus holding the gear I11 securely in mesh with the shutter rewind gear I56.

As best shown in Figs. 23, 24 and 25, when the shutter release lever or trigger 40, positioned as shown in Fig. 13, is caused to turn in a clockwise direction, the gear 240 will also be caused to turn in a clockwise direction. The said shutter release lever or trigger 40 and the gear 240 are shown held together by means of rivets 24I, I and by a special pin 242 having its end cut away as shown in Fig. 24, which is part of the interlock to be presently described.

The gear 240 and the shutter release lever or trigger 40 are mounted on the inner wall of the mechanism-housing by means of a shoulder rivet 243, and to one wall of the lens cone member 23 is fitted a bushing 244 into which a shaft 245 is free to rotate, as shown in Fig. 25. To one end of the shaft 245 and integral therewith is the capping gate operating or actuating disk II2, previously referred to, and onto the opposite end is keyed a gear 246. Since the gears 240 and 246 are constantly in mesh, when the shutter release lever or trigger 40 is moved in a clockwise direction, the gear 246 will be turned in a contraclockwise direction, thus operating the actuating disk H2 and the capping gates 96, 91 through connecting arms III and Illa and shoulder rivets 241, 249.

The opposite movement of the shutter release lever or trigger 49 (that is, in a contraclockwise direction) results in closing said capping gates through movement of the actuating disk I I2, and such closing movement of the capping gates is timed in operation with, and is operatively connected in action to, the shutter rewindlng means. Through the described interlocks for the shutter operating handle 39 and the shutter release lever or trigger 46, the capping gates are actually looked closed when closed and are locked open when open.

The shoulder rivet 249 is provided with a cylindrical extension 249 that engages the shutter operating arm or lever 250 which, as best shown in Fig. 8, is attached to a shaft 25I that rides in a bushing 252 fitted into a boss 253 on the mechanism-housing wall I28. Said shaft 25I is provided with suitable flats to which is keyed a crank member 254 held to said shaft 25I by means of a locking screw 255, shown also in Fig. 13, etc. Free to turn on said shaft 25I is a rewind interlock member 256, shown also in Figs. 13, 14, 15, 16, 18 and 19, and film ratchet release member 251. As the shutter'release lever or trigger 46 is rotated in a clockwise direction, and the actuating disk H2 is rotated in a contraclockwise direction, this causes the opening of capping gates 96, 91, as previously referred to, and causes the shutter operating arm 259 and the shaft 25I and the crank member 254 to be rotated in a clockwise direction,

. as indicated in Figure 13.

' As the crank member 254 is rotated in a clockwise direction, an extending finger 259 of the lever 234, as shown in Figs. 13 and 16, is engaged by the crank member 254, and the lever 234 is caused to be turned in a contraclockwise direction on the shoulder screw 235, thus disengaging the hook 239 from the pin I88. The rocker arm I16 is now free to be moved upward to disengage the gear I51 from the shutter rewind gear I56, as indicated in Fig. 16. The crankmember 254 is provided with a shoulder rivet 259 riding in a groove or slot 269 of link 26I. The groove 269 provides a certain amount of lost motion in the travel or turning of the crank member 254, for the purpose of allowing the capping gates 96, 91 to be partially opened and at the same time to disconnect the hook 239 from the pin I89 before the shutter is released.

As the shutter release lever 0r trigger 46 continues to move, the capping gates 96 and 91 continue to open until they reach the position shown in Fig. 16, and the link 26I which is connected to rocker arm I16 by means of a shoulder screw 262 will cause the rocker arm I15 to be rotated about the screw I15 until the gear I11 is fully disengaged from the shutter rewind gear I56, as shown in Fig. 16. Attached to the rocker arm I16 is a hook-shaped member 253 having a slot 264 and a hook 255, and it is held to the rocker arm I15 by screws 265, 255. The purpose of the hook-shaped member 269 is to engage the end of the shutter release lever I55 by means of the hook 265, thus disengaging the detent I61 from the notch I66 of the disk I59. The mechanism will now be in the position shown in Fig. 16, wherein the shutter curtain has run all the way down and the exposure is completed.

As best shown in Figs. 11 and 13, the disk I59 is provided with a pin 251, the purpose whereof -is to operate the film measuring device and to limit the motion or travel of the plate or disk I59 and the shutter-rewind gear I55 when the shutter curtain reaches the end of its travel. The said pin 261 is also used for operating one of the interlocks, as will be described presently.

Still referring to Fig. 16 and also to Fig. 18, as the curtain roller is turned in a contraclockwise direction under the infiuence of the curtain tension roller I25, the shutter rewind gear I55,

- pivoted on the shaft 25I as previously explained and is of a generally rectangular shape. The upper right-hand corner 214 thereof is cut oil to form a cam face to be operated upon by said pin 261 and has riveted thereto by means of a shoulder rivet 215 a rocker arm operating link 216, the opposite end whereof is connected to rocker arm 200 by means of shoulder rivets 211.

In Fig. 16, the mechanism is shown in the condition when the shutter curtain has run all the way down. Therein the pin 251 has contacted with the cam face 214 of the ratchet release member 251 and has caused said ratchet release member 251 to be rotated in a contraclockwise direction, carrying with it the rocker arm connecting link 216, thus causing the rocker arm :00 to be turned in a contraclockwise direction against spring 203, thereby disengaging pawl 20I from the teeth of ratchet wheel I96. When the shutter release lever or trigger 46 is released, the capping gates 96 and 91 are caused to be closed in a manner previously described, and this action will cause the actuating disk I I2 to be rotated in a clockwise direction, allowing the shutter operating arm or lever 256 to be turned in a contraclockwise direction, also turning the lever 254 in a contraclockwise direction, thus allowing rocker arm I15 to turn in a clockwise direction and permitting gear I11 and shutter rewind gear I56 again to become engaged under the influence of spring I95. The shutter can now be rewound, and since the capping gates 95 and 91 are closed, the sensitized material will not be exposed when the shutter aperture is wound past the exposure opening. Thus the closing movement of the capping gates is timed in operation with, and is operatively connected in action to, the shutter rewind means. Rewinding of the shutter is now started and a sufficient length of unexposed film is fed before the exposure aperture by turning the main driving gear 2 in a clockwise direction until a notch I69 of the disk I59 is engaged by the detent I61.

Referring to Fig. 20, the shutter rewind gear I56 has started to turn and has turned-approximately one half a revolution. The film feed gear I90 has also been turned. causing the film spool 52 to be rotated through the clutch member as previously described, and the ratchet wheel I96 is caused to turn in a contraclockwise direction.

As the film 59 passes over the film measuring roller II, the gear 265 is caused to turn in a clockwise direction; turning the index gear 266 and the index plate 251 in a contraclockwise direction until a sufllclent amount of film has passed over the film measuring roller H to provide an unexposed area of sensitized material before the exposure opening. The notch 298 of of /300 is desired, the shutter setting knob 31 said index plate 281 will then have reached the is moved to the right, viewing Fig. 10, and turned bent-over end 2) of the rocker arm 288 which in a clockwise direction until the numeral 300 will now be caused to turn in a clockwise direction appears in the window 42 of the index plate 285. by spring 283, until the pawl 28I engages the 5 If a shutter speed of list is desired, the shutter teeth of the ratc et wheel I96, s t p g he setting knob 31 is moved to the right and turned spool 62 f fu turning wever, the in a clockwise direction until the number 150 main driving gear 2II is continued in motion appears in said window, and if an indicated speed until the notch I66 of the disk I59 is engaged is /150 and a shutter speed of /800 is desired, the by the detentIBI of the lever I68. The mechashutter setting knob 31 is turned to the right, s t e w l be n t e co t on hown in viewing Fig. 10 in a contraclockwise direction Fi 6- until the numeral 600 appears in said window 42,

It will be noted that as shutter rewind gear I56 as indicated in Fig. 2'1. was caused to be turned in a contraclockwise di- Means are provided to prevent over movement rection to rewind the shutter curtain, as illus- 1a of the shutter curtain by the shutter curtain trated in Fig. 20, the pin 261 was carried away knob 31. Otherwise accidents would occur, as, from vthe cam face 214 of the ratchet release for example, if the shutter were set for /000 and membelf thus Permitting t e s id ratc et reit was desired to change the shutter speed and lease member 251 to be moved in a clockwise disaid shutter setting knob 31 were turned in a rection, and permitting the rocker arm 289 to contraclockwise direction. In such event, the turn in a clockwise direction until the bent-over 'curtain II9 would be torn loose from the ourend 2I8 engages the outer surface of the index tain roller H1, and if, when a speed of l/ 150 was member 201. indicated and the shutter setting knob 31 was Order to select a different p rtu o a diiturned in a, clockwise direction, the curtain II9 ferent Shutter d, e proceed s f l ws: would be caused to be wound up o the curtain Referring to Figs. 9 and 10, the shutter rewind roller H1 in the opposite (that is, in the wrong) gear I56 has attached thereto, as stated, the direction. Therefore, in order to limit the mopmion 1 ving integral therewith a sleeve tion of the shutter setting knob 31 when changl57a, and t0 the right hand n of d e e ing shutter speed and so as not to interfere with IBM, viewing Fig. 9, is attacheda threaded bushthe turning of shutter rewind gear I56 when ing 218 ch h s a press 1 S i k fit Onto sleeve the shutter is being operated, there is provided I51a. Threaded to the bushing 218 is the shutter interlocking means for engaging pin 288 of the setting knob 31 locked in place by the lock nut index gear 284, and this mechanism will now 219. The shutter setting knob 31 is of a hollow be described. cylindrical construction providing a space for the 35 Referring to Fig. 6, there is attached to mechknob return coil spring 288, one end of which anism-housing wall I28 a stud 289 having an enrests on the inner bottom wall of the said knob larged base 288 held to the inner wall of the 31 and the other end thereof rests against a mechanism-housing by means of screws '29I, 29I. spring retaining washer 28I held in place by a The stud 289 is provided with a central slot 292, cover plate 282, which is fitted to the shaft I68 40 and over said stud, as shown in Figs. 9 and 10, provided on its right-hand end with two flats for is fitted a housing 293 having an enlarged diamkeying the cover plate 282, which with the washer eter 294. Attached thereto is a detent plate 295 by 28I are held to the shaft I by a screw 283. means of rivets 296, 296, as best shown in Fig. 13. The spring 288 tends to keep the shutter rewind Said detent plate 295 is provided with a central gear I56 in contact with the disk I59, thus enkey member 291 (Fig. 13) fitting into the slot gaging the pins I65, I65, with the holes I64, I64 292 of the stud 289 to prevent the detent plate of said disk I59. 295 from turning on said stud 289. Said de- When the shutter setting knob 31 is moved tent plate 295 can be moved to the right or to to the right, as inFig. 10, the shutter rewind an the left, viewing Figs. 9 and 10. It is caused gear I56 and pinion I51 are also moved to the to be moved to the left, viewing Fig. 9, by means right, disengaging pins I65, I65 of said shutter of spring 298 held to the cover 43 by means of rewind gear I56 from holes I64, I64 of disk rivets 299,299. I59, and the gear teeth of said shutter rewind When the shutter is in a normal position (that gear I56 are disengaged from the teeth of the is, when it is ready for making an exposure) rewinding gear I11. The said shutter rewind the detent plate 295 with detent finger 308 is held gear I56 can now be turned to select a different out of engagement with the pin 288. When the shutter aperture, but said disk I59 is held stashutter speed control or setting knob 31 is moved tionary because the notch I66 of disk I59 is to the right carrying with it the shutter rewind engaged by the detent I61 of the shutter regear I56, the enlarged diameter 294 of the bushlease lever I68. ing 293 and the detent plate 295 with the de- Referring particularly to Fig. 27 and also to tent finger 300 are caused to be moved to the Fig. 4, in order to provide means for indicatright against the spring 298. This action disening the position or the shutter curtain with regages the shutter rewind gear I56 from the windspect to its several apertures, an index gear 284 ing gear or pinion I11 and places the detent is mounted on the mechanism plate 43 by a large finger 390 in position to be engaged by the pin head screw 285 and is free to turn thereon. The 288, if said shutter speed control or setting knob said index gear 284 is in mesh with the pinion 31 is turned too far in either direction. This I51. When the shutter is fully wound ready for definitely prevents the making of an improper V exposure, the shutter setting or speed can be adjustment for shutter speed.

read in the window 42 of the index, plate 286 70 It will be apparent that the only time that a mounted on the cover 43 by means of screws correct indication of shutter speeds can be ob- 281, 231, tained is when the shutter is rewound and ready In Fig. 27 the camera is set for a speed of /600 to make an exposure. In order to prevent anywhich corresponds to curtain aperture I29 of the one from trying to change shutter speeds when curtain II9, shown in Fig. 4. If a shutter speed the curtain i run down, there is provided an interlock operated by rewind interlock member 256 previously referred to, and which rewind interlock member 256 is, as has been stated, caused to turn in a clockwis direction by spring 212 and in a contraclockwise direction by pin 261 of the shutter release disk I59, when the shutter curtain is run all the way down.

Referring particularly to Figs. 6, 16, 1'7 and 18, said rewind interlock member 256 has, as already described, a laterally extending arm 210 and a vertical projection 2H, and it also has a bent-overmember 30 I. When said rewind interlock member 256 is caused to be moved in a contraclockwise direction under the influence of pin 261, the member 30! overlies shutter rewind gear I56, clearly shown in Figs. v16 and 1'7, thereby preventing the shutter setting knob 31 from being moved to the right to change theshutter curtain relationship with respectto the shutter release disk I59.

We will next describe the rewinding device, which has a to and fro motion, preferably oscillatory, but which may be reciprocatory, and for that purpose will refer to Figs. 8, 21, 22 and 28. Meshing with the pinion 2I8 is a gear 302 constituting the free running member of an over-running clutch, best shown in Figs. 8 and 28. Said clutch is made up of the outer ring gear- 302,

previously referred to, and a driving member 303 ring gear 302, is fitted to a bushing 3I2 of a cylindrical structure having an enlarged flange 3I3 provided with a groove 3I4 semicircular in shape and with a notch 3 I 5. The purpose of groove 3 is to provide a limit of motion for the bushing 3I2 in a rotary direction, ce-acting with head.

screw 320a, shown in Fig. 22, and the notch is for the purpose of preventing the bushing 3I2 from rotating at certain times. The opposite end of the bushing 3I2 is provided with flats 3I6, 3I6 that are fitted into a suitable hole in the guide plate 308. The driving member 303 and the guide plate 301 are provided with suitable holes to fit over the body of the bushing 3| 2, which rides on a pivot member 3I1 having an enlarged diameter flange 3I8 and an extending dowel 3| 9 (Fig. 8). The pivot member 3" is fitted t the mechanism wall I28 and is held thereto by means of screws 320, 320 and 320a. Also fitted to the bushing 3I2 (as shown in Fig. 21) and free to rotate thereon, is a trigger interlock member 32I having a laterally extendingarm 322 to which is attached a spring 323, the opposite end whereof is attached to a pin 324 threaded into the mechanism-housing wall I28. Said trigger interlock member MI is provided with a hook-shaped formation 325 for engaging the pin 342 and a laterally extending .arm 326 for engaging a pin 321 of the rewind interlock member 256. The trigger interlock member 32 H5 kept in proper spaced relation between ilange 3I3 and guide plate 201 by spacing pins 328, 328, shown in Fig. 22.

Referring particularly to Figs. 8, 27 and'28, th bushing 3I2 and the clutch assembly are held to the pivot member 3" by means of a washer 328 and a large head screw 330 threaded in the pivot member 3". For driving the gear 302 there is provided the shutter handle or operating member 39 (shown in many figures of the drawings) which is made up of a dog plate 33I (Fig. 8) having intor-engaging tangs to fit slots 3I0 of the drive member 309, as shown in Fig. 28, and a spacer 332 that is fitted between the dog plate 33I of the shutter handle or operating member 39, and is held into the assembly by means of rivets 333, 333. The shutter handle or operating member driving assembly made up of the said parts is held to and is supported on the camera cover 43 by semicircular disk-like plates 334, 334, which are attached to the cover 34 by means of screws 335, 335.

It will be noted that when the shutter handle or operating member 39 is oscillated, the clutch drive member 303 and the bushing 3I2 will also oscillate on the pivot member 3I1, but the outer ring gear 302 will be driven only in a contraclockwise direction by clutch members 305 in a manner well known in the art. Said outer ring gear 302, which is in mesh with pinion 2I8 (Fig. 6) cannot be turned in a clockwise direction because of ratchet wheel 2I5 and pawl 220, previously referred to. Said clutch driving member 303 and the said bushing 3I2 are limited in motion to approximately 120 by means of a stop pin which. is formed by the enlarged head-on screw riding in the groove 3I4 of the flange 3I3. Therefore, the shutter handle or operating member 39 can be oscillated through an arc of 120 only, and when said handle or member 39 is operated in a contraclockwise direction, the main driving gear 2 will be caused to turn a distance sufiicient to turn the shutter rewind gear I56 that part of a revolution necessary completely to rewind the shutter curtain; and when the shutter curtain is fully rewound, it is stopped from further motion by detent I61 engaging the notch I66 of the shutter release disk I59 (Fig. 6, etc.) However, a series of movements to and fro of less than 120 can also be used for rewinding the shutter curtain. When the latter is fully wound, said shutter handle or operatin member 39 can no longer be operated in a contraclockwise direction, thus said handle or member must be returned to the starting position, as shown in Fig. 27, before the shutter curtain can be released.

When said shutter handle or operating member 3'3 is returned to its starting position by turning it in a clockwise direction, the pin 321 of the rewind interlock member 256 will engage the notch 3I5 of the dense 3I3 and thus prevent further rewinding until the pin 321 ha been withdrawn, as indicated in Figs. 6, 13 and 26. As the shutter is released and the curtain is allowed to run down, the shutter rewind gear I56 turns in a clockwise direction, carrying with it pin 281 until it is stopped against the upper I end of the rewind interlock member 256, as shown in Figs. 16 and 18. This will cause said rewind interlock member 256 to be rotated in a contraclockwise direction on shaft 25I and against the tension of the spring 212. The parts of the interlock will now be in the. position shown in Figs. 16, 18, 20 and 21. In the upper end of the rewind interlock member 256 is a notch 336 (Figs. 16 and 18) which is engaged by a pin- 331 of the spring member 338 when the interlock has been moved to the position shown in Fig. 18. The pin 321 will be held out of engagement with the notch M5 and the shutter handle or operatm member 38 can now be operated. The said pin 321 will be held out or engagement with the notch 3I5 until the shutter is again rewound. As the shutter is rewound the shutter rewind gear I56 will be turned in a contraclockwise direction until the shutter is fully rewound and the notch I66 is engaged by the detent I61. The pin 261 will now be in the position shown in Fig. 26, overlying the bent-up end 339 of the spring 338 carrying pin 331. This will cause said pin 331 to be disengaged from the notch 336 of the rewind interlock member 256 and allow the said rewind interlock member 256 to be turned in a clockwise direction by means of the spring 212, so as again to engage the notch 2I5 of the flange 3I3 when the shutter handle or operating member 39 has reached the limit of motion in a clockwise direction.

The spring 338 is fitted into a recess in the wall I28 of the mechanism-housing and is held to the said mechanism-housing by screws I63, I63, previously referred to as holding the stud I60 to the mechanism-housing wall.

It is very important to have the shutter release lever or trigger 40 looked aftereach exposure and until a new supply of film has been moved into position before the exposure opening. We have accomplished this in the following manner.

Referring to Fig. 6, where themechanism is shown in condition for making an exposure (that is, the shutter being fully wound and the handle 35 being locked), and referring also to Figs. 16, and 21, the gear 240 is provided, as previously stated, with a pin 242 passing through an elongated slot 340 in the mechanism-housing wall. The trigger interlock member 32I has been rotated in a clockwise direction under the infiuence of pin 321 and finger 326, thus moving the hook 325 out of the path of said pin 242. When the shutter release lever or trigger 40 is operated in a clockwise direction. moving the gear 246 and pin 242, the said pin 242 will have passed over the end of said hook 325, as indicated in Fig. 13. As the movement of said shutter release lever or trigger 40 is continued in a clockwise direction, the shutter is thereby permitted to operate. The mechanism will then be in the condition shown in Fig. 16, wherein the shutter has run all the way down. The pin 321 will be rotated in a contraclockwise direction and away from the finger 326, and as the shutter trigger 40 is released and allowed to turn in a contraclockwise direction,'the trigger interlock member 32I will be caused to rotate in a contraclockwise direction allowing the hook 325 tobe placed in the path of pin 242, thus-preventing a second operation of the shutter release lever or trigger 40 until the shutter has been rewound. The shutter trigger interlock mechanism is now in the position shown in Fig. 21, wherein said I shutter release lever or trigger 40 is locked and [)0 the shutter rewind mechanism is unlocked and the shutter has been partially rewound, as shown in Fig. 20. When fully rewound, the mechanism will be in the condition shown in Fig. 6, ready for a second exposure.

Resume of the movement of the two co-acting interlocks The following is a rsum oi the operation of the shutter-operating or rewind-handle interlock and the shutter release lever interlock, the part 39 being the shutter operating handle and the part 40 being the shutter release lever or trigger.

In normal operation, the said operating handle II 39 is first moved in a contraclockwise direction viewing Fig. 1, through an arc of approximately to the position shown in dotted lines, Fig. 1. This motion causes film to be fed for the next exposure and the shutter curtain to be rewound in the manner fully described hereinbefore. Said operating handle 39 is then returned to the posi tion shown in full lines in Fig. 1, and it becomes locked in this position, as shown in Fig. 26, by reason of the pin 321 engaging the notch 3I5 of the flange 3I3 integral with the hub 3l2 connected to the handle 39, as already described. Said pin 321 is attached to the rewind Interlock member or rocker arm 256 and is caused to engage the notch 3I5 by said rewind interlock member 256 being moved in a clockwise direction under the influence of spring 212. Said shutter operating handle 39 can now no longer be operated until after the shutter has been released, but said shutter release lever or trig-. ger 46 can now be operated for releasing the shutter because the hook-shaped member 325 (Figs. l3, 16, 20 and 21, showing the different positions thereof) has been moved in a clockwise direction by the pin 321 acting on the extension 326 of the trigger locking member 32I. Said hook-shaped member 325 will now be held in this position until the shutter curtain has run all the way down. The shutter release lever or trigger 40 is now operated, the pin 242 on the gear 246 will move in a clockwise direction in the opening 340 (viewing said figure) and said gear 240 will be rotated in a clockwise direction, thus operating the capping gate levers 250 and 254. This will cause the gear I11 to be disengaged from the shutter rewind gear I56 (Fig. 16), and a further movement in a clockwise direction of said gate lever 254 by said shutter release lever or trigger 46 will cause the dog I61 to be disengaged from the notch I66 of the disk I58. The shutter curtain will now run down, causing an exposure (Fig. 16). As the shutter rewind gear I56 turns in a clockwise direction, the rewind interlock member 256 will be contacted by the pin 261 on the disk I59, near the end 01 the travel of the shutter curtain, and said rewind interlock member 256 will be caused to be turned ina contraclockwise direction until it is stopped from further movement by the bumper plate 268. The pin 321 will be disengaged from the notch 3I5, thus unlocking the shutter operating handle 39 and allowing the trigger locking member 32l to turn in a contraclockwise direction under the influence of the spring 323, when said shutter lever or trigger 40 is released, thus placing ,the hook 325 in the path of the pin 242 (Fig. 21). This will prevent the operation of said shutter release lever or trigger 40.

The'said rewind interlock member 256 is provided, as explained, with notch 336 engaged by the pin 331 of the spring member 339 (Fig. 18). said pin 331 will prevent the rewind interlock member 256 from rotating until the shutter has been completely rewound, and when the shutter is completely rewound, the pin 261 will over- I ride said spring 339, causing it to be moved in a downward direction, thereby withdrawing the pin 331 from the notch 336 (Fig. 26) thus allowing the rewind interlock member 256 to be turned wind interlock member 256 (Fig. 6). Said rewind interlock member 256 is provided with the extension 216 having the prolongation 36l that overlies shutter rewind gear I56 when the shutter curtain is in its run-down condition, thus preventing the shutter rewind gear I56 from being moved out of engagement with pins I65 of the disk I59, to prevent changing shutter speeds at this time.

It will be noted that when the shutter. is in its fully rewound condition, the shutter operating handle 39 is locked in the normal position. Said prolongation 36I is in a position to be out of engagement with the shutter rewind gear I56, and the hook 325 is in a position to allow the pin 242 to be turned in a clockwise direction. When the shutter is in its run-down condition (best shown in Fig. said prolongation 36I overlies the shutter rewind gear I56. The pin 321 is disengaged from the notch 3I5, and the hook 325 is in position to prevent the turning of the pin 242, and therefore the shutter operating handle 39 can be moved in a contraclockwise direction for rewinding the shutter, but the shutter release lever or trigger 46 cannot be operated, nor can the shutter rewind gear I56 be disengaged from the pins I65, I65 for changing the shutter speed setting.

In order to make wholly clear the operation and function of the lock for the release lever 46, it is .pointed out that in reality said release lever 46 is not locked by its own movement directly, but it becomes locked because said release lever 46 releases the shutter, and it is the shutter itself that in reality locks the release lever 66 after the said shutter has run all the way down. If the shutter were prevented from running down by anything that served to hold the shutter curtain, said shutter release lever 46 would not be locked through the mere movement of said shutter release lever 46 to release the shutter curtain, but said release lever 46 would remain unlocked until the shutter curtain has been permitted to run all the way down.

This will be clear from a consideration of Fig. 6, particularly taken with Figs. 18 and 21. In Fig. 6, the shutter is shown as fully wound or tensioned ready for the making of an exposure and the operating handle 39 is locked through the fact that the pin 321 engages the notch 3I5 of the flange 3I3. The release lever 46 is at this time free to be operated because the projection 325 of the trigger interlock member 32I has been turned in a clockwise direction by the pin 321 of the lever 256 through the action of spring 212. The release lever 46 can now be turned in a clockwise'direction i'ormaking an exposure, which movement of the release lever 46 will open the capping gates, disengage the gear I11 from the shutter rewind gear I56, and will withdraw the .pawl I61 of the lever I65 from the notch I66, thus allowing the shutter to run down. The said shutter release lever 46 is not yet locked, nor does it become locked until the shutter rewind gear I56 runs all the way down and pin 261 operates lever 256, as indicated in Fig. 18, moving the pin 321 in a contraclockwise direction under the influence of the spring 323.

If the shutter release lever 46 is now released, it will be caused to turn ina contraclockwise direction, and when it has returned to its starting position, the projection 325 of the interlock member 32I will be in the position shown in Fig. 21, wherein the shutter release lever 46 will be pre- Wnted from rotating in a clockwise direction because the pin 342 will be engaged bythe projection 325 of the trigger interlock member 32I.

Therefore a second operation of the shutter release lever 46 will be prevented until the shutter is again rewound, at which time the pin 261 will engage the spring 339-, withdrawing the pin 331 from the notch 336 of the lever 256. This is best shown in Fig. 26. The lever 256'wi1l now be allowed to turn in a clockwise direction through the action of spring 212, and the. pin 321 will engage the notch 3I5 of the flange 3I3, thus preventing any movementof the shutter operating or rewind handle 39 until the shutter release lever 46 has again been operated and the shutter has run all the way down, thus withdrawing pin 321 from the notch 3I5 of the flange 3I3, and, of course, when the shutter operating or rewind lever 39 is locked, the shutter lever 46 is unlocked.

The rewind of the film or positioning of a new area. of film for the next exposure has nothing to do directly with the locking or unlocking of the shutter release lever 46. Whenever the shutter is rewound, there is a new area of film fed into position, but actually the shutter release lever 46 is caused to be locked after the shutter has run all the way down, and by reason of such running down, and the shutter release lever 46 is released by the rewinding of the shutter curtain. This we believe to be wholly new in the art.

As hereinbefore set forth, the shutter operating handle 39 can be used for conditioning the camera for a second exposure by a series of strokes each shorter than 120, due to the over-running clutch in the handle mechanism. When a suflicient number of these short strokes has been made fully to rewind the shutter, thus placing the shutter rewind gear I56 in the position shown in Fig. 6, said shutter operating handle 39 can no longer be moved in a contraclockwise direction; neither can the shutter release lever or trigger 46 be operated, because the locking member 32I is in such a position that the said hook 325 is in the path of the pin 242 on the gear 246. The pin 331 has been withdrawn from the notch 336, but the rewind interlock member 256 will not return to the position shown in Fig. 6 until said shutter operating handle 39 has been moved in a clockwise direction to place the notch 3 I 5 in position to be engaged'by the pin 321, thus allowing the rewind interlock member 256 to be turned in a clockwise direction by the spring 212, thus rotating the trigger locking member 32Iv to such a position I that the hook-shaped member 325 is out of the path of pin 242. The shutter release lever or tri ger 46 can now be operated, and the shutter operating handle 39 is locked in the position shown in Fig. 1.

It will be clear from the foregoing description that we have provided in a photographic camera a shutter release lever 46 for the shutter, and means by movement of which the act of making the exposure by shutter-releasing movement of said release lever 46 thereupon locks said shutter release lever 46 after each-exposure to prevent further movement of said shutter release lever 46 until, by said co-acting means, the shutter has been reset for the next exposure. The disclosed mechanism includes the rewind interlock mem- 

